src/tools/clippy/src/driver.rs - third_party/rust - Git at Google

 #![feature(rustc_private)]
 #![cfg_attr(feature = "deny-warnings", deny(warnings))]
 // warn on lints, that are included in `rust-lang/rust`s bootstrap
 #![warn(rust_2018_idioms, unused_lifetimes)]
 // warn on rustc internal lints
 #![deny(rustc::internal)]

 // FIXME: switch to something more ergonomic here, once available.
 // (Currently there is no way to opt into sysroot crates without `extern crate`.)
 extern crate rustc_data_structures;
 extern crate rustc_driver;
 extern crate rustc_errors;
 extern crate rustc_interface;
 extern crate rustc_middle;

 use rustc_interface::interface;
 use rustc_middle::ty::TyCtxt;
 use rustc_tools_util::VersionInfo;

 use lazy_static::lazy_static;
 use std::borrow::Cow;
 use std::env;
 use std::ops::Deref;
 use std::panic;
 use std::path::{Path, PathBuf};
 use std::process::{exit, Command};

 mod lintlist;

 /// If a command-line option matches `find_arg`, then apply the predicate `pred` on its value. If
 /// true, then return it. The parameter is assumed to be either `--arg=value` or `--arg value`.
 fn arg_value<'a, T: Deref<Target = str>>(
     args: &'a [T],
     find_arg: &str,
     pred: impl Fn(&str) -> bool,
 ) -> Option<&'a str> {
     let mut args = args.iter().map(Deref::deref);
     while let Some(arg) = args.next() {
         let mut arg = arg.splitn(2, '=');
         if arg.next() != Some(find_arg) {
             continue;
         }

         match arg.next().or_else(|| args.next()) {
             Some(v) if pred(v) => return Some(v),
             _ => {},
         }
     }
     None
 }

 #[test]
 fn test_arg_value() {
     let args = &["--bar=bar", "--foobar", "123", "--foo"];

     assert_eq!(arg_value(&[] as &[&str], "--foobar", |_| true), None);
     assert_eq!(arg_value(args, "--bar", |_| false), None);
     assert_eq!(arg_value(args, "--bar", |_| true), Some("bar"));
     assert_eq!(arg_value(args, "--bar", |p| p == "bar"), Some("bar"));
     assert_eq!(arg_value(args, "--bar", |p| p == "foo"), None);
     assert_eq!(arg_value(args, "--foobar", |p| p == "foo"), None);
     assert_eq!(arg_value(args, "--foobar", |p| p == "123"), Some("123"));
     assert_eq!(arg_value(args, "--foo", |_| true), None);
 }

 struct DefaultCallbacks;
 impl rustc_driver::Callbacks for DefaultCallbacks {}

 struct ClippyCallbacks;
 impl rustc_driver::Callbacks for ClippyCallbacks {
     fn config(&mut self, config: &mut interface::Config) {
         let previous = config.register_lints.take();
         config.register_lints = Some(Box::new(move |sess, mut lint_store| {
             // technically we're ~guaranteed that this is none but might as well call anything that
             // is there already. Certainly it can't hurt.
             if let Some(previous) = &previous {
                 (previous)(sess, lint_store);
             }

             let conf = clippy_lints::read_conf(&[], &sess);
             clippy_lints::register_plugins(&mut lint_store, &sess, &conf);
             clippy_lints::register_pre_expansion_lints(&mut lint_store);
             clippy_lints::register_renamed(&mut lint_store);
         }));

         // FIXME: #4825; This is required, because Clippy lints that are based on MIR have to be
         // run on the unoptimized MIR. On the other hand this results in some false negatives. If
         // MIR passes can be enabled / disabled separately, we should figure out, what passes to
         // use for Clippy.
         config.opts.debugging_opts.mir_opt_level = 0;
     }
 }

 #[allow(clippy::find_map, clippy::filter_map)]
 fn describe_lints() {
     use lintlist::{Level, Lint, ALL_LINTS, LINT_LEVELS};
     use rustc_data_structures::fx::FxHashSet;

     println!(
         "
 Available lint options:
     -W <foo>           Warn about <foo>
     -A <foo>           Allow <foo>
     -D <foo>           Deny <foo>
     -F <foo>           Forbid <foo> (deny <foo> and all attempts to override)

 "
     );

     let lint_level = |lint: &Lint| {
         LINT_LEVELS
             .iter()
             .find(|level_mapping| level_mapping.0 == lint.group)
             .map(|(_, level)| match level {
                 Level::Allow => "allow",
                 Level::Warn => "warn",
                 Level::Deny => "deny",
             })
             .unwrap()
     };

     let mut lints: Vec<_> = ALL_LINTS.iter().collect();
     // The sort doesn't case-fold but it's doubtful we care.
     lints.sort_by_cached_key(|x: &&Lint| (lint_level(x), x.name));

     let max_lint_name_len = lints
         .iter()
         .map(|lint| lint.name.len())
         .map(|len| len + "clippy::".len())
         .max()
         .unwrap_or(0);

     let padded = |x: &str| {
         let mut s = " ".repeat(max_lint_name_len - x.chars().count());
         s.push_str(x);
         s
     };

     let scoped = |x: &str| format!("clippy::{}", x);

     let lint_groups: FxHashSet<_> = lints.iter().map(|lint| lint.group).collect();

     println!("Lint checks provided by clippy:\n");
     println!("    {}  {:7.7}  meaning", padded("name"), "default");
     println!("    {}  {:7.7}  -------", padded("----"), "-------");

     let print_lints = |lints: &[&Lint]| {
         for lint in lints {
             let name = lint.name.replace("_", "-");
             println!(
                 "    {}  {:7.7}  {}",
                 padded(&scoped(&name)),
                 lint_level(lint),
                 lint.desc
             );
         }
         println!("\n");
     };

     print_lints(&lints);

     let max_group_name_len = std::cmp::max(
         "clippy::all".len(),
         lint_groups
             .iter()
             .map(|group| group.len())
             .map(|len| len + "clippy::".len())
             .max()
             .unwrap_or(0),
     );

     let padded_group = |x: &str| {
         let mut s = " ".repeat(max_group_name_len - x.chars().count());
         s.push_str(x);
         s
     };

     println!("Lint groups provided by clippy:\n");
     println!("    {}  sub-lints", padded_group("name"));
     println!("    {}  ---------", padded_group("----"));
     println!("    {}  the set of all clippy lints", padded_group("clippy::all"));

     let print_lint_groups = || {
         for group in lint_groups {
             let name = group.to_lowercase().replace("_", "-");
             let desc = lints
                 .iter()
                 .filter(|&lint| lint.group == group)
                 .map(|lint| lint.name)
                 .map(|name| name.replace("_", "-"))
                 .collect::<Vec<String>>()
                 .join(", ");
             println!("    {}  {}", padded_group(&scoped(&name)), desc);
         }
         println!("\n");
     };

     print_lint_groups();
 }

 fn display_help() {
     println!(
         "\
 Checks a package to catch common mistakes and improve your Rust code.

 Usage:
     cargo clippy [options] [--] [<opts>...]

 Common options:
     -h, --help               Print this message
         --rustc              Pass all args to rustc
     -V, --version            Print version info and exit

 Other options are the same as `cargo check`.

 To allow or deny a lint from the command line you can use `cargo clippy --`
 with:

     -W --warn OPT       Set lint warnings
     -A --allow OPT      Set lint allowed
     -D --deny OPT       Set lint denied
     -F --forbid OPT     Set lint forbidden

 You can use tool lints to allow or deny lints from your code, eg.:

     #[allow(clippy::needless_lifetimes)]
 "
     );
 }

 const BUG_REPORT_URL: &str = "https://github.com/rust-lang/rust-clippy/issues/new";

 lazy_static! {
     static ref ICE_HOOK: Box<dyn Fn(&panic::PanicInfo<'_>) + Sync + Send + 'static> = {
         let hook = panic::take_hook();
         panic::set_hook(Box::new(|info| report_clippy_ice(info, BUG_REPORT_URL)));
         hook
     };
 }

 fn report_clippy_ice(info: &panic::PanicInfo<'_>, bug_report_url: &str) {
     // Invoke our ICE handler, which prints the actual panic message and optionally a backtrace
     (*ICE_HOOK)(info);

     // Separate the output with an empty line
     eprintln!();

     let emitter = Box::new(rustc_errors::emitter::EmitterWriter::stderr(
         rustc_errors::ColorConfig::Auto,
         None,
         false,
         false,
         None,
         false,
     ));
     let handler = rustc_errors::Handler::with_emitter(true, None, emitter);

     // a .span_bug or .bug call has already printed what
     // it wants to print.
     if !info.payload().is::<rustc_errors::ExplicitBug>() {
         let d = rustc_errors::Diagnostic::new(rustc_errors::Level::Bug, "unexpected panic");
         handler.emit_diagnostic(&d);
     }

     let version_info = rustc_tools_util::get_version_info!();

     let xs: Vec<Cow<'static, str>> = vec![
         "the compiler unexpectedly panicked. this is a bug.".into(),
         format!("we would appreciate a bug report: {}", bug_report_url).into(),
         format!("Clippy version: {}", version_info).into(),
     ];

     for note in &xs {
         handler.note_without_error(&note);
     }

     // If backtraces are enabled, also print the query stack
     let backtrace = env::var_os("RUST_BACKTRACE").map_or(false, |x| &x != "0");

     let num_frames = if backtrace { None } else { Some(2) };

     TyCtxt::try_print_query_stack(&handler, num_frames);
 }

 fn toolchain_path(home: Option<String>, toolchain: Option<String>) -> Option<PathBuf> {
     home.and_then(|home| {
         toolchain.map(|toolchain| {
             let mut path = PathBuf::from(home);
             path.push("toolchains");
             path.push(toolchain);
             path
         })
     })
 }

 pub fn main() {
     rustc_driver::init_rustc_env_logger();
     lazy_static::initialize(&ICE_HOOK);
     exit(rustc_driver::catch_with_exit_code(move || {
         let mut orig_args: Vec<String> = env::args().collect();

         // Get the sysroot, looking from most specific to this invocation to the least:
         // - command line
         // - runtime environment
         //    - SYSROOT
         //    - RUSTUP_HOME, MULTIRUST_HOME, RUSTUP_TOOLCHAIN, MULTIRUST_TOOLCHAIN
         // - sysroot from rustc in the path
         // - compile-time environment
         //    - SYSROOT
         //    - RUSTUP_HOME, MULTIRUST_HOME, RUSTUP_TOOLCHAIN, MULTIRUST_TOOLCHAIN
         let sys_root_arg = arg_value(&orig_args, "--sysroot", |_| true);
         let have_sys_root_arg = sys_root_arg.is_some();
         let sys_root = sys_root_arg
             .map(PathBuf::from)
             .or_else(|| std::env::var("SYSROOT").ok().map(PathBuf::from))
             .or_else(|| {
                 let home = std::env::var("RUSTUP_HOME")
                     .or_else(|_| std::env::var("MULTIRUST_HOME"))
                     .ok();
                 let toolchain = std::env::var("RUSTUP_TOOLCHAIN")
                     .or_else(|_| std::env::var("MULTIRUST_TOOLCHAIN"))
                     .ok();
                 toolchain_path(home, toolchain)
             })
             .or_else(|| {
                 Command::new("rustc")
                     .arg("--print")
                     .arg("sysroot")
                     .output()
                     .ok()
                     .and_then(|out| String::from_utf8(out.stdout).ok())
                     .map(|s| PathBuf::from(s.trim()))
             })
             .or_else(|| option_env!("SYSROOT").map(PathBuf::from))
             .or_else(|| {
                 let home = option_env!("RUSTUP_HOME")
                     .or(option_env!("MULTIRUST_HOME"))
                     .map(ToString::to_string);
                 let toolchain = option_env!("RUSTUP_TOOLCHAIN")
                     .or(option_env!("MULTIRUST_TOOLCHAIN"))
                     .map(ToString::to_string);
                 toolchain_path(home, toolchain)
             })
             .map(|pb| pb.to_string_lossy().to_string())
             .expect("need to specify SYSROOT env var during clippy compilation, or use rustup or multirust");

         // make "clippy-driver --rustc" work like a subcommand that passes further args to "rustc"
         // for example `clippy-driver --rustc --version` will print the rustc version that clippy-driver
         // uses
         if let Some(pos) = orig_args.iter().position(|arg| arg == "--rustc") {
             orig_args.remove(pos);
             orig_args[0] = "rustc".to_string();

             // if we call "rustc", we need to pass --sysroot here as well
             let mut args: Vec<String> = orig_args.clone();
             if !have_sys_root_arg {
                 args.extend(vec!["--sysroot".into(), sys_root]);
             };

             return rustc_driver::RunCompiler::new(&args, &mut DefaultCallbacks).run();
         }

         if orig_args.iter().any(|a| a == "--version" || a == "-V") {
             let version_info = rustc_tools_util::get_version_info!();
             println!("{}", version_info);
             exit(0);
         }

         // Setting RUSTC_WRAPPER causes Cargo to pass 'rustc' as the first argument.
         // We're invoking the compiler programmatically, so we ignore this/
         let wrapper_mode = orig_args.get(1).map(Path::new).and_then(Path::file_stem) == Some("rustc".as_ref());

         if wrapper_mode {
             // we still want to be able to invoke it normally though
             orig_args.remove(1);
         }

         if !wrapper_mode && (orig_args.iter().any(|a| a == "--help" || a == "-h") || orig_args.len() == 1) {
             display_help();
             exit(0);
         }

         let should_describe_lints = || {
             let args: Vec<_> = env::args().collect();
             args.windows(2)
                 .any(|args| args[1] == "help" && matches!(args[0].as_str(), "-W" | "-A" | "-D" | "-F"))
         };

         if !wrapper_mode && should_describe_lints() {
             describe_lints();
             exit(0);
         }

         // this conditional check for the --sysroot flag is there so users can call
         // `clippy_driver` directly
         // without having to pass --sysroot or anything
         let mut args: Vec<String> = orig_args.clone();
         if !have_sys_root_arg {
             args.extend(vec!["--sysroot".into(), sys_root]);
         };

         // this check ensures that dependencies are built but not linted and the final
         // crate is linted but not built
         let clippy_enabled = env::var("CLIPPY_TESTS").map_or(false, |val| val == "true")
             || arg_value(&orig_args, "--cap-lints", |val| val == "allow").is_none();

         if clippy_enabled {
             args.extend(vec!["--cfg".into(), r#"feature="cargo-clippy""#.into()]);
             if let Ok(extra_args) = env::var("CLIPPY_ARGS") {
                 args.extend(extra_args.split("__CLIPPY_HACKERY__").filter_map(|s| {
                     if s.is_empty() {
                         None
                     } else {
                         Some(s.to_string())
                     }
                 }));
             }
         }
         let mut clippy = ClippyCallbacks;
         let mut default = DefaultCallbacks;
         let callbacks: &mut (dyn rustc_driver::Callbacks + Send) =
             if clippy_enabled { &mut clippy } else { &mut default };
         rustc_driver::RunCompiler::new(&args, callbacks).run()
     }))
 }
	#![feature(rustc_private)]
	#![cfg_attr(feature = "deny-warnings", deny(warnings))]
	// warn on lints, that are included in `rust-lang/rust`s bootstrap
	#![warn(rust_2018_idioms, unused_lifetimes)]
	// warn on rustc internal lints
	#![deny(rustc::internal)]

	// FIXME: switch to something more ergonomic here, once available.
	// (Currently there is no way to opt into sysroot crates without `extern crate`.)
	extern crate rustc_data_structures;
	extern crate rustc_driver;
	extern crate rustc_errors;
	extern crate rustc_interface;
	extern crate rustc_middle;

	use rustc_interface::interface;
	use rustc_middle::ty::TyCtxt;
	use rustc_tools_util::VersionInfo;

	use lazy_static::lazy_static;
	use std::borrow::Cow;
	use std::env;
	use std::ops::Deref;
	use std::panic;
	use std::path::{Path, PathBuf};
	use std::process::{exit, Command};

	mod lintlist;

	/// If a command-line option matches `find_arg`, then apply the predicate `pred` on its value. If
	/// true, then return it. The parameter is assumed to be either `--arg=value` or `--arg value`.
	fn arg_value<'a, T: Deref<Target = str>>(
	args: &'a [T],
	find_arg: &str,
	pred: impl Fn(&str) -> bool,
	) -> Option<&'a str> {
	let mut args = args.iter().map(Deref::deref);
	while let Some(arg) = args.next() {
	let mut arg = arg.splitn(2, '=');
	if arg.next() != Some(find_arg) {
	continue;
	}

	match arg.next().or_else(\|\| args.next()) {
	Some(v) if pred(v) => return Some(v),
	_ => {},
	}
	}
	None
	}

	#[test]
	fn test_arg_value() {
	let args = &["--bar=bar", "--foobar", "123", "--foo"];

	assert_eq!(arg_value(&[] as &[&str], "--foobar", \|_\| true), None);
	assert_eq!(arg_value(args, "--bar", \|_\| false), None);
	assert_eq!(arg_value(args, "--bar", \|_\| true), Some("bar"));
	assert_eq!(arg_value(args, "--bar", \|p\| p == "bar"), Some("bar"));
	assert_eq!(arg_value(args, "--bar", \|p\| p == "foo"), None);
	assert_eq!(arg_value(args, "--foobar", \|p\| p == "foo"), None);
	assert_eq!(arg_value(args, "--foobar", \|p\| p == "123"), Some("123"));
	assert_eq!(arg_value(args, "--foo", \|_\| true), None);
	}

	struct DefaultCallbacks;
	impl rustc_driver::Callbacks for DefaultCallbacks {}

	struct ClippyCallbacks;
	impl rustc_driver::Callbacks for ClippyCallbacks {
	fn config(&mut self, config: &mut interface::Config) {
	let previous = config.register_lints.take();
	config.register_lints = Some(Box::new(move \|sess, mut lint_store\| {
	// technically we're ~guaranteed that this is none but might as well call anything that
	// is there already. Certainly it can't hurt.
	if let Some(previous) = &previous {
	(previous)(sess, lint_store);
	}

	let conf = clippy_lints::read_conf(&[], &sess);
	clippy_lints::register_plugins(&mut lint_store, &sess, &conf);
	clippy_lints::register_pre_expansion_lints(&mut lint_store);
	clippy_lints::register_renamed(&mut lint_store);
	}));

	// FIXME: #4825; This is required, because Clippy lints that are based on MIR have to be
	// run on the unoptimized MIR. On the other hand this results in some false negatives. If
	// MIR passes can be enabled / disabled separately, we should figure out, what passes to
	// use for Clippy.
	config.opts.debugging_opts.mir_opt_level = 0;
	}
	}

	#[allow(clippy::find_map, clippy::filter_map)]
	fn describe_lints() {
	use lintlist::{Level, Lint, ALL_LINTS, LINT_LEVELS};
	use rustc_data_structures::fx::FxHashSet;

	println!(
	"
	Available lint options:
	-W <foo> Warn about <foo>
	-A <foo> Allow <foo>
	-D <foo> Deny <foo>
	-F <foo> Forbid <foo> (deny <foo> and all attempts to override)

	"
	);

	let lint_level = \|lint: &Lint\| {
	LINT_LEVELS
	.iter()
	.find(\|level_mapping\| level_mapping.0 == lint.group)
	.map(\|(_, level)\| match level {
	Level::Allow => "allow",
	Level::Warn => "warn",
	Level::Deny => "deny",
	})
	.unwrap()
	};

	let mut lints: Vec<_> = ALL_LINTS.iter().collect();
	// The sort doesn't case-fold but it's doubtful we care.
	lints.sort_by_cached_key(\|x: &&Lint\| (lint_level(x), x.name));

	let max_lint_name_len = lints
	.iter()
	.map(\|lint\| lint.name.len())
	.map(\|len\| len + "clippy::".len())
	.max()
	.unwrap_or(0);

	let padded = \|x: &str\| {
	let mut s = " ".repeat(max_lint_name_len - x.chars().count());
	s.push_str(x);
	s
	};

	let scoped = \|x: &str\| format!("clippy::{}", x);

	let lint_groups: FxHashSet<_> = lints.iter().map(\|lint\| lint.group).collect();

	println!("Lint checks provided by clippy:\n");
	println!(" {} {:7.7} meaning", padded("name"), "default");
	println!(" {} {:7.7} -------", padded("----"), "-------");

	let print_lints = \|lints: &[&Lint]\| {
	for lint in lints {
	let name = lint.name.replace("_", "-");
	println!(
	" {} {:7.7} {}",
	padded(&scoped(&name)),
	lint_level(lint),
	lint.desc
	);
	}
	println!("\n");
	};

	print_lints(&lints);

	let max_group_name_len = std::cmp::max(
	"clippy::all".len(),
	lint_groups
	.iter()
	.map(\|group\| group.len())
	.map(\|len\| len + "clippy::".len())
	.max()
	.unwrap_or(0),
	);

	let padded_group = \|x: &str\| {
	let mut s = " ".repeat(max_group_name_len - x.chars().count());
	s.push_str(x);
	s
	};

	println!("Lint groups provided by clippy:\n");
	println!(" {} sub-lints", padded_group("name"));
	println!(" {} ---------", padded_group("----"));
	println!(" {} the set of all clippy lints", padded_group("clippy::all"));

	let print_lint_groups = \|\| {
	for group in lint_groups {
	let name = group.to_lowercase().replace("_", "-");
	let desc = lints
	.iter()
	.filter(\|&lint\| lint.group == group)
	.map(\|lint\| lint.name)
	.map(\|name\| name.replace("_", "-"))
	.collect::<Vec<String>>()
	.join(", ");
	println!(" {} {}", padded_group(&scoped(&name)), desc);
	}
	println!("\n");
	};

	print_lint_groups();
	}

	fn display_help() {
	println!(
	"\
	Checks a package to catch common mistakes and improve your Rust code.

	Usage:
	cargo clippy [options] [--] [<opts>...]

	Common options:
	-h, --help Print this message
	--rustc Pass all args to rustc
	-V, --version Print version info and exit

	Other options are the same as `cargo check`.

	To allow or deny a lint from the command line you can use `cargo clippy --`
	with:

	-W --warn OPT Set lint warnings
	-A --allow OPT Set lint allowed
	-D --deny OPT Set lint denied
	-F --forbid OPT Set lint forbidden

	You can use tool lints to allow or deny lints from your code, eg.:

	#[allow(clippy::needless_lifetimes)]
	"
	);
	}

	const BUG_REPORT_URL: &str = "https://github.com/rust-lang/rust-clippy/issues/new";

	lazy_static! {
	static ref ICE_HOOK: Box<dyn Fn(&panic::PanicInfo<'_>) + Sync + Send + 'static> = {
	let hook = panic::take_hook();
	panic::set_hook(Box::new(\|info\| report_clippy_ice(info, BUG_REPORT_URL)));
	hook
	};
	}

	fn report_clippy_ice(info: &panic::PanicInfo<'_>, bug_report_url: &str) {
	// Invoke our ICE handler, which prints the actual panic message and optionally a backtrace
	(*ICE_HOOK)(info);

	// Separate the output with an empty line
	eprintln!();

	let emitter = Box::new(rustc_errors::emitter::EmitterWriter::stderr(
	rustc_errors::ColorConfig::Auto,
	None,
	false,
	false,
	None,
	false,
	));
	let handler = rustc_errors::Handler::with_emitter(true, None, emitter);

	// a .span_bug or .bug call has already printed what
	// it wants to print.
	if !info.payload().is::<rustc_errors::ExplicitBug>() {
	let d = rustc_errors::Diagnostic::new(rustc_errors::Level::Bug, "unexpected panic");
	handler.emit_diagnostic(&d);
	}

	let version_info = rustc_tools_util::get_version_info!();

	let xs: Vec<Cow<'static, str>> = vec![
	"the compiler unexpectedly panicked. this is a bug.".into(),
	format!("we would appreciate a bug report: {}", bug_report_url).into(),
	format!("Clippy version: {}", version_info).into(),
	];

	for note in &xs {
	handler.note_without_error(&note);
	}

	// If backtraces are enabled, also print the query stack
	let backtrace = env::var_os("RUST_BACKTRACE").map_or(false, \|x\| &x != "0");

	let num_frames = if backtrace { None } else { Some(2) };

	TyCtxt::try_print_query_stack(&handler, num_frames);
	}

	fn toolchain_path(home: Option<String>, toolchain: Option<String>) -> Option<PathBuf> {
	home.and_then(\|home\| {
	toolchain.map(\|toolchain\| {
	let mut path = PathBuf::from(home);
	path.push("toolchains");
	path.push(toolchain);
	path
	})
	})
	}

	pub fn main() {
	rustc_driver::init_rustc_env_logger();
	lazy_static::initialize(&ICE_HOOK);
	exit(rustc_driver::catch_with_exit_code(move \|\| {
	let mut orig_args: Vec<String> = env::args().collect();

	// Get the sysroot, looking from most specific to this invocation to the least:
	// - command line
	// - runtime environment
	// - SYSROOT
	// - RUSTUP_HOME, MULTIRUST_HOME, RUSTUP_TOOLCHAIN, MULTIRUST_TOOLCHAIN
	// - sysroot from rustc in the path
	// - compile-time environment
	// - SYSROOT
	// - RUSTUP_HOME, MULTIRUST_HOME, RUSTUP_TOOLCHAIN, MULTIRUST_TOOLCHAIN
	let sys_root_arg = arg_value(&orig_args, "--sysroot", \|_\| true);
	let have_sys_root_arg = sys_root_arg.is_some();
	let sys_root = sys_root_arg
	.map(PathBuf::from)
	.or_else(\|\| std::env::var("SYSROOT").ok().map(PathBuf::from))
	.or_else(\|\| {
	let home = std::env::var("RUSTUP_HOME")
	.or_else(\|_\| std::env::var("MULTIRUST_HOME"))
	.ok();
	let toolchain = std::env::var("RUSTUP_TOOLCHAIN")
	.or_else(\|_\| std::env::var("MULTIRUST_TOOLCHAIN"))
	.ok();
	toolchain_path(home, toolchain)
	})
	.or_else(\|\| {
	Command::new("rustc")
	.arg("--print")
	.arg("sysroot")
	.output()
	.ok()
	.and_then(\|out\| String::from_utf8(out.stdout).ok())
	.map(\|s\| PathBuf::from(s.trim()))
	})
	.or_else(\|\| option_env!("SYSROOT").map(PathBuf::from))
	.or_else(\|\| {
	let home = option_env!("RUSTUP_HOME")
	.or(option_env!("MULTIRUST_HOME"))
	.map(ToString::to_string);
	let toolchain = option_env!("RUSTUP_TOOLCHAIN")
	.or(option_env!("MULTIRUST_TOOLCHAIN"))
	.map(ToString::to_string);
	toolchain_path(home, toolchain)
	})
	.map(\|pb\| pb.to_string_lossy().to_string())
	.expect("need to specify SYSROOT env var during clippy compilation, or use rustup or multirust");

	// make "clippy-driver --rustc" work like a subcommand that passes further args to "rustc"
	// for example `clippy-driver --rustc --version` will print the rustc version that clippy-driver
	// uses
	if let Some(pos) = orig_args.iter().position(\|arg\| arg == "--rustc") {
	orig_args.remove(pos);
	orig_args[0] = "rustc".to_string();

	// if we call "rustc", we need to pass --sysroot here as well
	let mut args: Vec<String> = orig_args.clone();
	if !have_sys_root_arg {
	args.extend(vec!["--sysroot".into(), sys_root]);
	};

	return rustc_driver::RunCompiler::new(&args, &mut DefaultCallbacks).run();
	}

	if orig_args.iter().any(\|a\| a == "--version" \|\| a == "-V") {
	let version_info = rustc_tools_util::get_version_info!();
	println!("{}", version_info);
	exit(0);
	}

	// Setting RUSTC_WRAPPER causes Cargo to pass 'rustc' as the first argument.
	// We're invoking the compiler programmatically, so we ignore this/
	let wrapper_mode = orig_args.get(1).map(Path::new).and_then(Path::file_stem) == Some("rustc".as_ref());

	if wrapper_mode {
	// we still want to be able to invoke it normally though
	orig_args.remove(1);
	}

	if !wrapper_mode && (orig_args.iter().any(\|a\| a == "--help" \|\| a == "-h") \|\| orig_args.len() == 1) {
	display_help();
	exit(0);
	}

	let should_describe_lints = \|\| {
	let args: Vec<_> = env::args().collect();
	args.windows(2)
	.any(\|args\| args[1] == "help" && matches!(args[0].as_str(), "-W" \| "-A" \| "-D" \| "-F"))
	};

	if !wrapper_mode && should_describe_lints() {
	describe_lints();
	exit(0);
	}

	// this conditional check for the --sysroot flag is there so users can call
	// `clippy_driver` directly
	// without having to pass --sysroot or anything
	let mut args: Vec<String> = orig_args.clone();
	if !have_sys_root_arg {
	args.extend(vec!["--sysroot".into(), sys_root]);
	};

	// this check ensures that dependencies are built but not linted and the final
	// crate is linted but not built
	let clippy_enabled = env::var("CLIPPY_TESTS").map_or(false, \|val\| val == "true")
	\|\| arg_value(&orig_args, "--cap-lints", \|val\| val == "allow").is_none();

	if clippy_enabled {
	args.extend(vec!["--cfg".into(), r#"feature="cargo-clippy""#.into()]);
	if let Ok(extra_args) = env::var("CLIPPY_ARGS") {
	args.extend(extra_args.split("__CLIPPY_HACKERY__").filter_map(\|s\| {
	if s.is_empty() {
	None
	} else {
	Some(s.to_string())
	}
	}));
	}
	}
	let mut clippy = ClippyCallbacks;
	let mut default = DefaultCallbacks;
	let callbacks: &mut (dyn rustc_driver::Callbacks + Send) =
	if clippy_enabled { &mut clippy } else { &mut default };
	rustc_driver::RunCompiler::new(&args, callbacks).run()
	}))
	}